Surver on distribution, germplasm resource, growth and cultivation areas of seed squash was carried out in Arong Banner in Hulunbair League of InnerMonglia.
对内蒙古呼盟阿荣旗、扎兰屯市、莫力达瓦旗的籽用南瓜的分布、种质资源、生育规律、栽培面积进行了调查。
Oppositifolious character of maize is a new variation type, whose leaf and kernel are both oppositifolious, which is a high-yield breeding germplasm resource.
玉米的对生性状是一个新的变异类型,其叶片和果穗均为对生,是高产育种极其珍贵的种质资源。
In present day, straitness of germplasm resource stands the way of maize breeding in China. So, new germplasm and expanding use of germplasm resource arc required.
在当前,玉米种质资源狭窄是我国玉米育种的突出问题,这要求必须补充新的种质,扩大种质资源的利用。
The situation of Qinghai herbage germplasm resource is introduced, and the suggestion to the protection and utilization of Qinghai herbage are outlined in the article.
着重介绍了青海省牧草种质资源现状,探讨了青海省牧草保护与利用设想。
Basing on their principal component, we judged the traits of every germplasm resource and selected 10 cultivar with better multiple traits to be used as parents in breeding.
根据各种质资源的主成份值判断其表现特点,选出了综合性状比较理想的10份品种作为育种亲本。
Research development of germplasm resources of Fructus Amomi was reviewed in the aspects of species resource, geographic distribution, intraspecies variation, and tissue culture.
从种类资源、产地分布、种内变异及组织培养等方面综述了砂仁种质资源的研究进展。
In order to broaden the germplasm resource of maize, many maize breeding researchers have done much work to collect local germplasm and introduce excellent exotic germplasm to China.
针对玉米种质资源狭窄的客观现实,我国的许多玉米育种工作者从收集地方种质,引进外来种质入手,为拓宽玉米种质资源作了大量工作。
The situation of the germplasm resource of apricot in China was briefly introduced, and main research development and the ways of use in germplasm resource of apricot in China also were summarized.
简要介绍了我国杏种质资源,综述了近年来我国杏种质资源的主要研究成果以及利用的方向和主要途径。
The research on the genetic relationships of germplasm resource can provide scientific basis for exploring the origin, evolution, classification, breeding and application of peach germplasm resource.
桃种质资源亲缘关系的研究将为探讨桃的起源、进化、分类、育种和资源利用提供科学依据。
The results showed that these new wheat lines present high resistance to water stress. Giant spike wheat germplasm could be used as drought resistance gene resource in wheat breeding.
结果表明,利用巨穗小麦种质为基础培育的品系较当地生产上大面积种植的栽培品种有良好的抗旱特性,巨穗小麦种质有可能作为小麦抗旱节水育种的良好遗传资源。
The results showed that these new wheat lines present high resistance to water stress. Giant spike wheat germplasm could be used as drought resistance gene resource in wheat breeding.
结果表明,利用巨穗小麦种质为基础培育的品系较当地生产上大面积种植的栽培品种有良好的抗旱特性,巨穗小麦种质有可能作为小麦抗旱节水育种的良好遗传资源。
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